Research Article
Efficiency Measurement of Logistics Industry in the Yangtze River Delta Region under Low-Carbon Constraints
@INPROCEEDINGS{10.4108/eai.29-3-2024.2347390, author={Aishan Ye and Xiaohua Li and Yangyang Deng}, title={Efficiency Measurement of Logistics Industry in the Yangtze River Delta Region under Low-Carbon Constraints}, proceedings={Proceedings of the 3rd International Conference on Bigdata Blockchain and Economy Management, ICBBEM 2024, March 29--31, 2024, Wuhan, China}, publisher={EAI}, proceedings_a={ICBBEM}, year={2024}, month={6}, keywords={logistics industry low-carbon constraints efficiency measurement super-efficiency sbm model}, doi={10.4108/eai.29-3-2024.2347390} }
- Aishan Ye
Xiaohua Li
Yangyang Deng
Year: 2024
Efficiency Measurement of Logistics Industry in the Yangtze River Delta Region under Low-Carbon Constraints
ICBBEM
EAI
DOI: 10.4108/eai.29-3-2024.2347390
Abstract
This study closely combines the characteristics of logistics industry, incorporates energy usage and environmental load to construct an input-output index system for logistics industry. We collect logistics industry data from 2010 to 2022 in the Yangtze River Delta region, including three provinces and one municipality, and use the super-efficiency SBM model with undesirable output to evaluate the efficiency of logistics industry under low-carbon constraints. Findings indicate a W-shaped development trend in the efficiency of the logistics industry in the Yangtze River Delta region under low-carbon constraints. There are significant development differences among the three provinces and one municipality, with Anhui ranking first and Zhejiang ranking last. However, by 2022, the gap between provinces is minimal, indicating a clear trend of integrated and coordinated development. Countermeasures and recommendations are proposed from aspects of comprehensive system construction, technological innovation support and government planning guidance to effectively enhance the efficiency of logistics industry in the Yangtze River Delta region under low-carbon constraints.